Evolution of 'pollinator'- Attracting Signals in Fungi

Overview

Journal Biol Lett

Specialty Biology

Date 2006 Dec 7

PMID 17148414

Citations 18

Authors

Florian P Schiestl

Fabrizio Steinebrunner

Claudia Schulz

Stephan von Reuss

Wittko Francke

Christophe Weymuth

Adrian Leuchtmann

Affiliations

Soon will be listed here.

Abstract

Fungi produce a plethora of secondary metabolites yet their biological significance is often little understood. Some compounds show well-known antibiotic properties, others may serve as volatile signals for the attraction of insects that act as vectors of spores or gametes. Our investigations in an outcrossing, self-incompatible fungus show that a fungus-produced volatile compound with fungitoxic activities is also responsible for the attraction of specific insects that transfer gametes. We argue that insect attraction using this compound is likely to have evolved from its primary function of defence--as has been suggested for floral scent in the angiosperms. We, thus, propose that similar yet convergent evolutionary pathways have lead to interspecific communication signals in both fungi and plants.

Citing Articles

Considerations for Domestication of Novel Strains of Filamentous Fungi.

Pullen R, Decker S, Subramanian V, Adler M, Tobias A, Perisin M ACS Synth Biol. 2025; 14(2):343-362.

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Mycophagy: A Global Review of Interactions between Invertebrates and Fungi.

Santamaria B, Verbeken A, Haelewaters D J Fungi (Basel). 2023; 9(2).

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Nature's Most Fruitful Threesome: The Relationship between Yeasts, Insects, and Angiosperms.

Fenner E, Scapini T, Diniz M, Giehl A, Treichel H, Alvarez-Perez S J Fungi (Basel). 2022; 8(10).

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van den Brandhof J, Wosten H Fungal Biol Biotechnol. 2022; 9(1):3.

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Cross-species transcriptomics identifies core regulatory changes differentiating the asymptomatic asexual and virulent sexual life cycles of grass-symbiotic Epichloë fungi.

Berry D, Lee K, Winter D, Mace W, Becker Y, Nagabhyru P G3 (Bethesda). 2022; 12(4).

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